ArtOS is a gun-fire control system designed for artillery batteries, mortars and rocket launchers that brings innovative information and communication technologies. It can operate as part of a reconnaissance-strike complex and is compatible with various surveillance and data recording systems. ArtOS optimizes performance of existing CIS country artillery weapons and can integrate modern NATO weapons through software flexibility. It combines with aerial reconnaissance to build precise attack patterns and tracks ammunition usage to facilitate resupply orders.
Reconfigurable Trust for Embedded Computing
Platforms
Published in:Applied Electronics (AE), 2012 International
Conference
By:-
Martin Schramm University of Applied Sciences Deggendorf Deggendorf,
Germanymartin.schramm@hdu-deggendorf.de
Andreas Grzemba University of Applied Sciences Deggendorf
Deggendorf, Germany andreas.grzemba@hdu-deggendorf.de
•The main topic for this paper is how to implement hardware in security.
•Implementing hardware adds sophisticated security and privacy mechanisms, by isolating security module from the rest of the system.
•Using FPGA is one way to add hardware security feature, and it was the main idea for this paper
The SCISSOR approach to establishing situational awareness in Industrial Cont...Stefano Salsano
The SCISSOR project designed a scalable SCADA security monitoring framework with the following characteristics: i) integration of a wide range of heterogeneous sensors; ii) a dynamically adaptable, distributed data aggregation framework; iii) advanced detection and correlation models as extensions to a conventional SIEM; iv) exploitation of modern cloud-computing concepts. Thanks to this framework, situational awareness is established in a scalable manner in near real-time by correlating events coming from very heterogeneous sensors.
Reconfigurable Trust for Embedded Computing
Platforms
Published in:Applied Electronics (AE), 2012 International
Conference
By:-
Martin Schramm University of Applied Sciences Deggendorf Deggendorf,
Germanymartin.schramm@hdu-deggendorf.de
Andreas Grzemba University of Applied Sciences Deggendorf
Deggendorf, Germany andreas.grzemba@hdu-deggendorf.de
•The main topic for this paper is how to implement hardware in security.
•Implementing hardware adds sophisticated security and privacy mechanisms, by isolating security module from the rest of the system.
•Using FPGA is one way to add hardware security feature, and it was the main idea for this paper
The SCISSOR approach to establishing situational awareness in Industrial Cont...Stefano Salsano
The SCISSOR project designed a scalable SCADA security monitoring framework with the following characteristics: i) integration of a wide range of heterogeneous sensors; ii) a dynamically adaptable, distributed data aggregation framework; iii) advanced detection and correlation models as extensions to a conventional SIEM; iv) exploitation of modern cloud-computing concepts. Thanks to this framework, situational awareness is established in a scalable manner in near real-time by correlating events coming from very heterogeneous sensors.
Smartdust Network for Tactical Border Surveillance Using Multiple SignaturesIOSR Journals
Abstract: The paper aims at designing a system for border surveillance using the concept of smartdust
technology. Smartdusts are small dust like wireless sensor motes with multiple on-board sensors and
microcontroller. In real time, thousands of such smartdust motes must be deployed in a large area. The motes
can form a network among them and has wireless connection to outside world. Onboard hardware include a
variety of sensors for vibration/seismic, magnetic, acoustic and thermal signature recognition, a
microcontroller for processing these sensor values and a radio transceiver for communication over a wireless
network. In this experimental project, we have designed one central monitoring mote and two smartdust motes
using ARM controller, IEEE radio transceiver and sensors.The central monitoring mote also displays the
tracking history of intrusion on enabling a switch.
Keywords:Advanced RISC Machine (ARM), Cortex microcontroller software interface standard (CMSIS), Inter
Integrated Circuit (I2C), MEMS accelerometer, Serial Peripheral Interface (SPI),Smartdust mote.
Smartdust Network for Tactical Border Surveillance Using Multiple SignaturesIOSR Journals
The paper aims at designing a system for border surveillance using the concept of smartdust
technology. Smartdusts are small dust like wireless sensor motes with multiple on-board sensors and
microcontroller. In real time, thousands of such smartdust motes must be deployed in a large area. The motes
can form a network among them and has wireless connection to outside world. Onboard hardware include a
variety of sensors for vibration/seismic, magnetic, acoustic and thermal signature recognition, a
microcontroller for processing these sensor values and a radio transceiver for communication over a wireless
network. In this experimental project, we have designed one central monitoring mote and two smartdust motes
using ARM controller, IEEE radio transceiver and sensors.The central monitoring mote also displays the
tracking history of intrusion on enabling a switch
ST Engineering iDirect’s broadband capabilities provide secure
connectivity for all voice, video and data communications and
specialized applications for assured access in even the most
challenging environments.
OpenBTS: Emergency GSM Messaging & Monitoring System for Civil ProtectionLuca Bongiorni
Open BTS: Emergency GSM Messaging & Monitoring System for Civil Protection is proposed as a solution ready-to-deploy in the event of natural disaster, in that areas where GSM networks are temporarily down.
IDS CRONOS is a Dynamic AIS/AIM system capable of storing and providing, under the responsibility of an aeronautical information management system, quality-assured, traditional, digital, aeronautical information/data in a timely manner, meeting the information needs of the diverse end-users with confidence and improve the overall safety of air navigation
Education set for collecting and visualizing data using sensor system based ...IJMER
This article presents the issues of the wireless sensor measuring systems design which might
be used in education process of computer science faculty. The work shows the integration of a simple
measuring system, data management system, visual system and the hardware. Education set is designed
to consolidate knowledge in many fields of computer science and the interdependence between them, as
programming techniques, database, Web server, communications protocols, software and hardware.
Presented measuring sensor system consists of a number of measurement nodes, whose role is to
provide information about certain desirable characteristics, warning against natural hazards or
violation of the physical safety. An important part of the sensor system is a measuring subsystem and
the collecting measurement data subsystem. The article presents the temperature measurement sensor
system concepts and measurement data storage and visualization methods
Actian Corporation (formerly Ingres Corp.) is the first to unveil a Cloud Action Platform
for building Action Apps. Action Apps are lightweight consumer-style applications that
automate business actions triggered by real-time changes in data. Actian products
incite action at more than 10,000 customers worldwide by driving their mission critical
workloads and providing rapid action insights to their data. Actian is headquartered in
Redwood City, California with offices in New York, London, Paris, Frankfurt, Amsterdam,
and Melbourne.
Education set for collecting and visualizing data using sensor system based o...IJMER
This article presents the issues of the wireless sensor measuring systems design which might
be used in education process of computer science faculty. The work shows the integration of a simple
measuring system, data management system, visual system and the hardware. Education set is designed
to consolidate knowledge in many fields of computer science and the interdependence between them, as
programming techniques, database, Web server, communications protocols, software and hardware.
Presented measuring sensor system consists of a number of measurement nodes, whose role is to
provide information about certain desirable characteristics, warning against natural hazards or
violation of the physical safety. An important part of the sensor system is a measuring subsystem and
the collecting measurement data subsystem. The article presents the temperature measurement sensor
system concepts and measurement data storage and visualization methods
Air Programming on Sunspot with use of Wireless Networksijsrd.com
Wireless Sensor Networks (WSN) provides us an effective means to monitor physical environments. The computing nodes in a WSN are resource constrained devices whose resources need to be used sparingly. The main requirement of a WSN is to operate unattended in remote locations for extended periods of time. Physical conditions, environmental conditions, upgrades, user preferences, and errors within the code can all contribute to the need to modify currently running applications. Therefore, reprogramming of sensor nodes is required. One of the important terminologies that are associated with WSN network is that of OVER THE AIR PROGRAMMING. This concept has been utilized so far as for Imote2 sensors that has been relatively utilized for the processing of the Deluge port (DP). They have so far been able to successfully reboot each application. But this rebooting is still not reliable and secure as there are certain security features that are affected in the processing. I will provide a more reliable, robust and secure system that would have enriched functionalities of that of OTA programming on SUNSPOT. Some important features of the SUN SPOT that I will be utilizing in this practical approach is that it supports isolated application models such as sensor networks, it allows running multiple applications in one. It does not create overhead on the entire system node as it provides lower level asynchronous for proper message delivery. It also supports migration from one device to another. This paper focuses on developing a multi-hop routing protocol for communication among Sun SPOT sensor nodes and a user front-end (i.e. visualizer) to visualise the collected values from all the nodes. To test the routing protocol before deploying it to sensor nodes, a simulation using J-Sim is created.
White paper: Enhance mobility and driver experience with multihop data exchan...Yaroslav Domaratsky
Unmanned Aerial Vehicles (UAVs) have growing potential in the Public Safety (PS), commercial, government, and consumer domains. Over six million UAVs will be sold in the US in 2016, and the total available UAV market is estimated to reach 100 million UAVs sold worldwide by 2020. We believe that flying Wireless Mesh Network (WMN) would be the most suitable technology to organize communication between UAVs, between UAVs and ground infrastructure and between UAVs and ground vehicles. In the paper we propose technical approach to implement the above listed use cases using low cost communication technologies within ITS architecture. In the paper we define use cases, discuss potentially applicable communication technologies, overview WMN data routing protocols, list UAV specific requirements and discuss product differentiation.
Smartdust Network for Tactical Border Surveillance Using Multiple SignaturesIOSR Journals
Abstract: The paper aims at designing a system for border surveillance using the concept of smartdust
technology. Smartdusts are small dust like wireless sensor motes with multiple on-board sensors and
microcontroller. In real time, thousands of such smartdust motes must be deployed in a large area. The motes
can form a network among them and has wireless connection to outside world. Onboard hardware include a
variety of sensors for vibration/seismic, magnetic, acoustic and thermal signature recognition, a
microcontroller for processing these sensor values and a radio transceiver for communication over a wireless
network. In this experimental project, we have designed one central monitoring mote and two smartdust motes
using ARM controller, IEEE radio transceiver and sensors.The central monitoring mote also displays the
tracking history of intrusion on enabling a switch.
Keywords:Advanced RISC Machine (ARM), Cortex microcontroller software interface standard (CMSIS), Inter
Integrated Circuit (I2C), MEMS accelerometer, Serial Peripheral Interface (SPI),Smartdust mote.
Smartdust Network for Tactical Border Surveillance Using Multiple SignaturesIOSR Journals
The paper aims at designing a system for border surveillance using the concept of smartdust
technology. Smartdusts are small dust like wireless sensor motes with multiple on-board sensors and
microcontroller. In real time, thousands of such smartdust motes must be deployed in a large area. The motes
can form a network among them and has wireless connection to outside world. Onboard hardware include a
variety of sensors for vibration/seismic, magnetic, acoustic and thermal signature recognition, a
microcontroller for processing these sensor values and a radio transceiver for communication over a wireless
network. In this experimental project, we have designed one central monitoring mote and two smartdust motes
using ARM controller, IEEE radio transceiver and sensors.The central monitoring mote also displays the
tracking history of intrusion on enabling a switch
ST Engineering iDirect’s broadband capabilities provide secure
connectivity for all voice, video and data communications and
specialized applications for assured access in even the most
challenging environments.
OpenBTS: Emergency GSM Messaging & Monitoring System for Civil ProtectionLuca Bongiorni
Open BTS: Emergency GSM Messaging & Monitoring System for Civil Protection is proposed as a solution ready-to-deploy in the event of natural disaster, in that areas where GSM networks are temporarily down.
IDS CRONOS is a Dynamic AIS/AIM system capable of storing and providing, under the responsibility of an aeronautical information management system, quality-assured, traditional, digital, aeronautical information/data in a timely manner, meeting the information needs of the diverse end-users with confidence and improve the overall safety of air navigation
Education set for collecting and visualizing data using sensor system based ...IJMER
This article presents the issues of the wireless sensor measuring systems design which might
be used in education process of computer science faculty. The work shows the integration of a simple
measuring system, data management system, visual system and the hardware. Education set is designed
to consolidate knowledge in many fields of computer science and the interdependence between them, as
programming techniques, database, Web server, communications protocols, software and hardware.
Presented measuring sensor system consists of a number of measurement nodes, whose role is to
provide information about certain desirable characteristics, warning against natural hazards or
violation of the physical safety. An important part of the sensor system is a measuring subsystem and
the collecting measurement data subsystem. The article presents the temperature measurement sensor
system concepts and measurement data storage and visualization methods
Actian Corporation (formerly Ingres Corp.) is the first to unveil a Cloud Action Platform
for building Action Apps. Action Apps are lightweight consumer-style applications that
automate business actions triggered by real-time changes in data. Actian products
incite action at more than 10,000 customers worldwide by driving their mission critical
workloads and providing rapid action insights to their data. Actian is headquartered in
Redwood City, California with offices in New York, London, Paris, Frankfurt, Amsterdam,
and Melbourne.
Education set for collecting and visualizing data using sensor system based o...IJMER
This article presents the issues of the wireless sensor measuring systems design which might
be used in education process of computer science faculty. The work shows the integration of a simple
measuring system, data management system, visual system and the hardware. Education set is designed
to consolidate knowledge in many fields of computer science and the interdependence between them, as
programming techniques, database, Web server, communications protocols, software and hardware.
Presented measuring sensor system consists of a number of measurement nodes, whose role is to
provide information about certain desirable characteristics, warning against natural hazards or
violation of the physical safety. An important part of the sensor system is a measuring subsystem and
the collecting measurement data subsystem. The article presents the temperature measurement sensor
system concepts and measurement data storage and visualization methods
Air Programming on Sunspot with use of Wireless Networksijsrd.com
Wireless Sensor Networks (WSN) provides us an effective means to monitor physical environments. The computing nodes in a WSN are resource constrained devices whose resources need to be used sparingly. The main requirement of a WSN is to operate unattended in remote locations for extended periods of time. Physical conditions, environmental conditions, upgrades, user preferences, and errors within the code can all contribute to the need to modify currently running applications. Therefore, reprogramming of sensor nodes is required. One of the important terminologies that are associated with WSN network is that of OVER THE AIR PROGRAMMING. This concept has been utilized so far as for Imote2 sensors that has been relatively utilized for the processing of the Deluge port (DP). They have so far been able to successfully reboot each application. But this rebooting is still not reliable and secure as there are certain security features that are affected in the processing. I will provide a more reliable, robust and secure system that would have enriched functionalities of that of OTA programming on SUNSPOT. Some important features of the SUN SPOT that I will be utilizing in this practical approach is that it supports isolated application models such as sensor networks, it allows running multiple applications in one. It does not create overhead on the entire system node as it provides lower level asynchronous for proper message delivery. It also supports migration from one device to another. This paper focuses on developing a multi-hop routing protocol for communication among Sun SPOT sensor nodes and a user front-end (i.e. visualizer) to visualise the collected values from all the nodes. To test the routing protocol before deploying it to sensor nodes, a simulation using J-Sim is created.
White paper: Enhance mobility and driver experience with multihop data exchan...Yaroslav Domaratsky
Unmanned Aerial Vehicles (UAVs) have growing potential in the Public Safety (PS), commercial, government, and consumer domains. Over six million UAVs will be sold in the US in 2016, and the total available UAV market is estimated to reach 100 million UAVs sold worldwide by 2020. We believe that flying Wireless Mesh Network (WMN) would be the most suitable technology to organize communication between UAVs, between UAVs and ground infrastructure and between UAVs and ground vehicles. In the paper we propose technical approach to implement the above listed use cases using low cost communication technologies within ITS architecture. In the paper we define use cases, discuss potentially applicable communication technologies, overview WMN data routing protocols, list UAV specific requirements and discuss product differentiation.
LF Energy Webinar: Electrical Grid Modelling and Simulation Through PowSyBl -...DanBrown980551
Do you want to learn how to model and simulate an electrical network from scratch in under an hour?
Then welcome to this PowSyBl workshop, hosted by Rte, the French Transmission System Operator (TSO)!
During the webinar, you will discover the PowSyBl ecosystem as well as handle and study an electrical network through an interactive Python notebook.
PowSyBl is an open source project hosted by LF Energy, which offers a comprehensive set of features for electrical grid modelling and simulation. Among other advanced features, PowSyBl provides:
- A fully editable and extendable library for grid component modelling;
- Visualization tools to display your network;
- Grid simulation tools, such as power flows, security analyses (with or without remedial actions) and sensitivity analyses;
The framework is mostly written in Java, with a Python binding so that Python developers can access PowSyBl functionalities as well.
What you will learn during the webinar:
- For beginners: discover PowSyBl's functionalities through a quick general presentation and the notebook, without needing any expert coding skills;
- For advanced developers: master the skills to efficiently apply PowSyBl functionalities to your real-world scenarios.
Transcript: Selling digital books in 2024: Insights from industry leaders - T...BookNet Canada
The publishing industry has been selling digital audiobooks and ebooks for over a decade and has found its groove. What’s changed? What has stayed the same? Where do we go from here? Join a group of leading sales peers from across the industry for a conversation about the lessons learned since the popularization of digital books, best practices, digital book supply chain management, and more.
Link to video recording: https://bnctechforum.ca/sessions/selling-digital-books-in-2024-insights-from-industry-leaders/
Presented by BookNet Canada on May 28, 2024, with support from the Department of Canadian Heritage.
GDG Cloud Southlake #33: Boule & Rebala: Effective AppSec in SDLC using Deplo...James Anderson
Effective Application Security in Software Delivery lifecycle using Deployment Firewall and DBOM
The modern software delivery process (or the CI/CD process) includes many tools, distributed teams, open-source code, and cloud platforms. Constant focus on speed to release software to market, along with the traditional slow and manual security checks has caused gaps in continuous security as an important piece in the software supply chain. Today organizations feel more susceptible to external and internal cyber threats due to the vast attack surface in their applications supply chain and the lack of end-to-end governance and risk management.
The software team must secure its software delivery process to avoid vulnerability and security breaches. This needs to be achieved with existing tool chains and without extensive rework of the delivery processes. This talk will present strategies and techniques for providing visibility into the true risk of the existing vulnerabilities, preventing the introduction of security issues in the software, resolving vulnerabilities in production environments quickly, and capturing the deployment bill of materials (DBOM).
Speakers:
Bob Boule
Robert Boule is a technology enthusiast with PASSION for technology and making things work along with a knack for helping others understand how things work. He comes with around 20 years of solution engineering experience in application security, software continuous delivery, and SaaS platforms. He is known for his dynamic presentations in CI/CD and application security integrated in software delivery lifecycle.
Gopinath Rebala
Gopinath Rebala is the CTO of OpsMx, where he has overall responsibility for the machine learning and data processing architectures for Secure Software Delivery. Gopi also has a strong connection with our customers, leading design and architecture for strategic implementations. Gopi is a frequent speaker and well-known leader in continuous delivery and integrating security into software delivery.
A tale of scale & speed: How the US Navy is enabling software delivery from l...sonjaschweigert1
Rapid and secure feature delivery is a goal across every application team and every branch of the DoD. The Navy’s DevSecOps platform, Party Barge, has achieved:
- Reduction in onboarding time from 5 weeks to 1 day
- Improved developer experience and productivity through actionable findings and reduction of false positives
- Maintenance of superior security standards and inherent policy enforcement with Authorization to Operate (ATO)
Development teams can ship efficiently and ensure applications are cyber ready for Navy Authorizing Officials (AOs). In this webinar, Sigma Defense and Anchore will give attendees a look behind the scenes and demo secure pipeline automation and security artifacts that speed up application ATO and time to production.
We will cover:
- How to remove silos in DevSecOps
- How to build efficient development pipeline roles and component templates
- How to deliver security artifacts that matter for ATO’s (SBOMs, vulnerability reports, and policy evidence)
- How to streamline operations with automated policy checks on container images
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Cheryl Hung, ochery.com
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2. ArtOS – is a gun-fire control complex designed to
work with artillery batteries, mortars and multiple
launch rocket systems of different caliber, and
brings the innovative solution to information and
communication technologies
It can work as a component of the
reconnaissance-striking complex and also be
compatible with diverse systems of
reconnaissance, surveillance, data recording,
where the digital data transmittance takes place.
ArtOS
3. The ArtOS
greatly optimizes the performance of existing
artillery fire weapons of CIS countries. Software
flexibility makes it possible to integrate modern
types of weapons from NATO countries. Artillery
batteries (towed and self-propelled) missile and
mortar batteries - all can be equipped with
ArtOS complex. Combining ArtOS with aerial
recon (drone) formations allows to build a
precise attack pattern, and included ammo
consumption record system allows commander
to make timely resupply orders.
4. A diagram of ArtOS-based reconaissance-striking complex
Howitzer sections
(2А36)
Rocket artillery
sections (MRL)
Network Supply
Module
Orders Intelligence data Radio Wi-Fi Cellular network
Portable mortar sections
(PM120 / Molot)
Land firefinder radar systems
(AN/TPQ)
Military intelligence
(using MilChat &
UKROP apps)
QRF
(using MilChat &
UKROP apps)
Artillery sound ranging
systems (АZK5 / АZK7)
Reconaissance officer
Fire Direction Centre
commanderFiring Sections
commander
SPG sections
(2S3)
Satellite systems
(EOSDA based)
UAV
(Leleka100)
5. ArtOS complex is compatible with Delta,
UKROP application. It can be easily compatible with
other software, applied in the Armed Forces of
Ukraine. It can also receive data from artillery and
operational commanders as well as from any
known reconnaissance system: aerial, acoustic,
radar, optical and data mapping system.
6. ArtOS complex is able:
To plan combat operations;
•
•
•
•
Substantially shorten the preparation time
(down to 7 minutes max);
To save time (up to 1 minute) on fire opening
from the moment of detection of burst
localization;
To solve up to 70% of tactical and battlefield
tasks encountered by artillery detachments;
7. •
• To solve geodetic tasks.
To plan fire attack;•
• To keep records of ammunition and other
inventory and submit resupply orders;
To plan relocation and communicate the route,
obtained from the artillery recon group;
8. Ability to apply ArtOS complex for
standard control systems as well as
without them, as a part of complex
as a whole or by every terminal
individually;
1
2
3
Key advantages
Using ArtOS complexes it is possible
to create a group of artillery
detachments, from battalion and
brigade artillery group to a group of
artillery corps;
Compatible with Delta, UKROP
application (more than 8,000 users in
the area of anti-terrorist operation)
and other software;
9. 5
6
4 Complex can be used with any
artillery system, in automated mode
and receive data from drones, from
any system of artillery
reconnaissance, from
meteorological complexes and other
devices;
Based on the cutting-edge platform
with ability of automated software
update and includes modern software
means of data protection.
Ability to control artillery gunfire by
combined arms commanders without
vocational training via UKROP
application and other software used by
the Armed Forces of Ukraine;
10. Individual distinctive features
All terminals are interconnected through
several types of communication
(Wi-Fi, cellular networks, army transceivers)
Software features are strictly divided
between officials according to their
military position;
Simulation of the real state of combat
operations on the digital map;
Positioning of observations posts and
firing points within several known
coordinate systems;
Processing and analysis of reconaissance
data;
Ammo and inventory usage records;
•
•
•
•
•
•
11. Command transfering from the battery
commander terminal to the gunner
terminal inclusively;
Firing data calculation considering
all weather and ballistic conditions;
Automated positioning of each gun;
Automated firing data setting for
every gun;
Control over conditions of machinery
and personel;
Automated logging for any received and
given commands, safe storage of the
received and sent information without
ability of deletion, with ability of further
export as text files;
•
•
•
•
•
•
12. Data encryption
Login password Secure https connection while transmitting
data via Internet;
Every tablet has its own private key for
additional encryption of data using RSA
and AES algorithm;
AES-256 security key while transmitting data
via radio communication facilities;
All the data are transmitted in form of
raw sequence of bytes (and not
formatted into XML, JSON etc). It
significantly complicates the analysis of
package content in case if interception.
Obfuscated program code: even while receiving
the installation package with its further
decompilation, it is impossible to understand
program structures;
ADB (Android Debug Bridge) password
protection;
1 2
7
4
65
3
ArtOS software complex is harnessed with the following data protection software and techniques:
13. •
•
•
Modularity
Compatible with modern measurement
devices, as follows: sensors, measuring
meteo- and ballistic data, vehicle αaxis ,
barrel elevation angle etc.
Can be easily adjusted for usage with
more modern weapon models;
Supplemented with different number
of terminals, depending on
personnel of the unit;
Due to its modular design, ArtOS system
can be:
14. Fire Direction Centre commander's terminal
Basic functions of the FDC commander's
terminal are to obtain information in respect of
the targets or other military forces, connection
with observation points through GPS, solving
the tasks of reconnaissance device orientation
and transmitting commands to Firing Sections
commander.
15. Firing Sections commander's terminal
Basic functions of the firing sections
commander's terminal are to obtain targets data
from battery commander via digital
communication channels, control over gun
condition, automated meteo- and ballistic
measurement and transfer of data on targets to
gunlayers for opening the fire.
16. Gunlayer's terminal is assigned for obtaining and
transmitting data to the Firing Sections
commander's terminal via communication
facilities, ensuring connection to gun, setting and
transfering firing data considering meteorogical
and ballistic corrections and output it to the
gunlayer data display system (GDDS) devices.
Gun commander terminal can perform fire
missions independently as an individual gun.
Gunlayer's terminal
17. Gunlayer Data Display System (GDDS)
GDDS devices are designed to obtain gun
targeting data from gun commander and to
display these data to the gunner. GDDS devices
are equipped with magnetic clamps which allow
them to be mounted on any place, suitable for
the gunner.
18. Network supply module (NSM) devices
NSM devices are designed to provide
communication for guns in firing positions as
well as for battery commander.
NSM for battery commander is equipped with
portable antenna and NSM for guns are mounted
on tripods.
лей;
19. NALF Cherkasske
MBr.
Berdychiv
ABr.
Zaporizhia
ABr.
Ternopil
ABr.
Kryvyi Rih
TBr.
Severodonetsk
MBr.
Experience of using ArtOS
Automated gun fire control system was tested in the area of anti-terrorist operation by artillery units of the Armed
Forces of Ukraine and Ukrainian National Guard (Berdychiv Artillery Brigade, Zaporizhia Artillery Brigade, Ternopil
Artillery Brigade, Severodonetsk Mechanized Brigade, Cherkasske Mechanized Brigade, Kryvyi Rih Tank Brigade and
National Academy of Land Forces), and has proved its worth and got positive feedback.
20. ArtOS complex passed Otfficial Tests and the respective Test Certificate was issued. Certificate
Approval Resolution was signed. The next step is to get the Resolution of the Ministry of Defense of
Ukraine on permitted use of ArtOS complex in the Armed Forces of Ukraine.
21. MilStaff – is an artillery units staff managment
system. This software is installed on secure
device and features scalable user interface
which allow users to work on large screens with
ease. It's designed for combat operations
planning automation, artillery units control
during military operations, targeting and firing
control.
MilStaff
22. It obtains information, found by any
reconnaissance facility, and transfers it. It is
integrated with ArtNet, ArtOS, MilChat, UKROP
and compatible with other programs and
systems, which are created and used in the
Armed Forces of Ukraine.
23. MilChat – is a specialized military mobile
messenger. It significantly surpasses all
the well-known messengers (Теlegram,
Viber, etc.) by functionality.
MilChat
24. Apart from sending messages, images and files, it
includes a versatile tool set to work with digital
maps within several known coordinate systems
and allows to specify targets, send recon reports
and more.
25. ArtOS project collaborates with a number of
companies which have scientific and design
departments, in-house production facilities with
high-skill staff and high-tech equipment, capable
of researching, designing, testing and quality
control. Using these production facilities, we test
our complex to improve its quality and
performance characteristics.
Production
26. ArtOS is an invention of the group of specialists,
working for one of the units of Noosphere,
headquartered in the USA and having representative
offices in 17 countries worldwide. Noosphere brings
together distinguished scientists, researches and
volunteers to put science and technology into practice.
The key areas of the company’s activities are ІТ-
developments and inventions in the area of space
exploration. Working in the area of military information
technologies and specialized electronics, we focus on
technological advancement of the Armed Forces of
Ukraine using the cutting-age technologies.
Serhii Moisieiev
+38095-032-32-50
moiseev@noosphere.com
Yaroslav Sherstyuk
+38095-741-19-71
sherstyuk.ya.n@gmail.com
ukropsoft.com
Chiefs of our projects have combat experience, gained
in the armed conflict in the east of Ukraine and also
took part in military missions of the other conflicts.
Therefore, our software has been developed
considering all the distinctions of contemporary
military conflicts.
About us