Enabling a Driver-Specific “Real-Time Road Safety” Assessment through an “Extended Floating Car Data” and Visualization System

Seiring dengan perkembangan teknologi komunikasi dan otomasi, pelaksanaan tugas militer dapat dibantu dengan mengembangkan alutsista militer. Salah satunya pengembangan robot tempur yang akan digunakan sebagai alat untuk membantu tugas operasi jarak jauh pada satuan tempur TNI AD. Pada robot tempur tersebut akan ditanamkan sistem komunikasi data berupa perintah kendali laju robot, perintah kendali senjata serang, dan sistem visualisasi yang dapat digunakan untuk mendukung pergerakan robot hingga mencapai sasaran yang ditentukan, serta sebagai sistem penginderaan jarak jauh robot tempur untuk memonitor area musuh yang akan ditinjau. Operator menggunakan sebuah joystick untuk mengendalikan robot tempur dan tablet Android untuk memantau dan mendeteksi arah sasaran. Penelitian ini membahas tentang perancangan pendeteksian sasaran tembak yang dapat dikendalikan dari jarak jauh. Metode yang digunakan adalah metode eksperimen berbasis PID. Penelitian ini berfokus pada pendeteksian sasaran tembak yang nantinya akan terhubung dengan Raspberry Pi 3, sehingga senjata dapat mendeteksi adanya sasaran tembak yang ada di dalam jangkauan sensor posisi. Hasil dari penelitian menunjukkan bahwa robot dapat dikendalikan dengan mudah menggunakan joystick dan secara real-time terlihat pada layar Android yang terpasang pada kontrol joystick tersebut. Selain itu, sistem juga dapat membedakan antara sasaran tembak dan objek yang bukan sasaran tembak. Penelitian ini diharapkan dapat mendukung tugas operasi personel TNI dalam menjalankan misinya dengan memanfaatkan robot tempur. Along with the development of communication and automation technology, the implementation of military duties can be assisted by developing military defense equipment. One of them is the development of a combat robot that will be used as a tool to assist the task of long-distance operations on the Army combat unit. In the combat robot, a data communication system will be implanted in the form of a robot rate control command, an attack weapon control command, and a visualization system that is used to support the robot's movement to reach the target specified as a combat robot's remote sensing system for monitoring enemy areas to be reviewed. The operator has used a joystick to control the combat robot and to detect the direction of the target can be monitored with an android tablet. This research discusses the design of the detection of target fire that can be controlled remotely. The method used is experimental based on PID. This research focused on detecting firing targets that will be connected with Raspberry Pi 3 so that the weapon can detect the presence of firing targets within the position sensor. The results of the research show that the robot can be easily controlled using a Joystick and in real-time visible on the Android screen mounted on the Joystick control, the system can distinguish between target shooting and non-target objects. This research is expected to support the operational duties of army personnel in carrying out their missions by utilizing combat robots.

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DSP-Based Implementation of a Real-Time Sound Field Visualization System Using SONAH Algorithm

Advances in Intelligent Systems and Computing - Advances in Harmony Search, Soft Computing and Applications ◽

10.1007/978-3-030-31967-0_12 ◽

2019 ◽

pp. 99-110

Author(s):

Zhe Zhang ◽

Ming Wu ◽

Jun Yang

Keyword(s):

Real Time ◽

Sound Field ◽

Visualization System

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Using Deep Learning to Construct a Real-Time Road Safety Model; Modelling the Personal Attributes for Cyclist

Lecture Notes in Computer Science - Intelligent Data Engineering and Automated Learning – IDEAL 2020 ◽

10.1007/978-3-030-62365-4_60 ◽

2020 ◽

pp. 610-619

Author(s):

Faheem Ahmed Malik ◽

Laurent Dala ◽

Krishna Busawon

Keyword(s):

Deep Learning ◽

Real Time ◽

Road Safety ◽

Personal Attributes

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A Flexible, Extensible Object Oriented Real-time Near Photorealistic Visualization System: The System Framework Design

Progress in Spatial Data Handling ◽

10.1007/3-540-35589-8_36 ◽

2006 ◽

pp. 563-579

Author(s):

Anthony Jones ◽

Dan Cornford

Keyword(s):

Real Time ◽

Object Oriented ◽

System Framework ◽

Visualization System ◽

Framework Design

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Review of the Configuration Risk Management Methodologies

10.1115/icone28-64281 ◽

2021 ◽

Author(s):

Yuhang Zhang ◽

Zhijian Zhang ◽

He Wang ◽

Lixuan Zhang ◽

Dabin Sun

Keyword(s):

Risk Management ◽

Real Time ◽

Nuclear Power ◽

Safety Assessment ◽

Power Plants ◽

Nuclear Power Plants ◽

Probabilistic Safety Assessment ◽

Technical Specifications ◽

Risk Monitor ◽

Probabilistic Safety

Abstract To ensure nuclear safety and prevent or mitigate the consequences of accidents, many safety systems have been set up in nuclear power plants to limit the consequences of accidents. Even though technical specifications based on deterministic safety analysis are applied to avoid serious accidents, they are too poor to handle multi-device managements compared with configuration risk management which computes risks in nuclear power plants based on probabilistic safety assessment according to on-going configurations. In general, there are two methodologies employed in configuration risk management: living probabilistic safety assessment (LPSA) and risk monitor (RM). And average reliability databases during a time of interest are employed in living probabilistic safety assessment, which may be naturally applied to make long-term or regular management projects. While transient risk databases are involved in risk monitor to measure transient risks in nuclear power plants, which may be more appropriate to monitor the real-time risks in nuclear power plants and provide scientific real-time suggestions to operators compared with living probabilistic safety assessment. And this paper concentrates on the applications and developments of living probabilistic safety assessment and risk monitor which are the mainly foundation of the configuration risk management to manage nuclear power plants within safe threshold and avoid serious accidents.

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