"HERCULES"
AN INTEGRATED EARLY WARNING SYSTEM
FOR INCOMING C.B.R.N. THREATS
‘C.B.R.N.’ or ‘CBRN’ means: Chemical, Biological, Radiological, Nuclear
Chapter 1: Introduction
1.1 General
The emergence of the third generation of Corona viruses (COVID-19) has highlighted the long-standing problem of the European Union (EU), the non-existence of C.B.R.N. threats detection and localization systems, especially for relatively long distances (over 100 meters).
1.1.1 The demand
Because it has become universally understood that the epidemiological action of such viruses (and not only those) can be used in the context of a medium or large-scale biological war with devastating consequences for both the health of the EU population, «3 Level Security Ltd» has developed a Digital detection, Localization and Recording System to geographical data base system (GIS) that is implemented by a number of (two or more) C.B.R.N. threats locating operators. The operators must be at a distance from each other or even moving (pedestrian or oncoming).
1.1.2 An idea that responds to the demand
At the same time, in parallel, we have designed and developed a generalized purpose subsystem of C.B.R.N. threats (substances) DETECTORS. of which we consider to be the guide for the detection of some or part or all of C.B.R.N. threats.
The above two INDEPENDENT systems are key elements of a broader model - Early Warning System for Incoming in a Surveillance area: Radiological, Biological, Chemical and Nuclear (C.B.R.N.) THREATS (substances) that are intended to provide the relevant IN TIME data to the Commander / Director / Governor for both the EU responsibility zone as well as at the state (member of the EU) level.
1.1.3 Up today Research and Development
«3 Level Security Ltd» submits this proposal for the development of an Integrated Early Warning System for C.B.R.N.(cHEmical, biological, RAdiological, nuCLEar) threatS that ‘entering’ in a supervised area, by detecting those threats from long distances using digital recording in a geographic information system (GIS) database by the code name ‘HERACLES'.
Application: Τoday «3 Level Security Ltd» R&D section finalize the first phase of ‘HERACLES’ project. At its finale stage ‘HERACLES’ will:
· be an ultimate Early Warning System for incoming C.B.R.N. (Chemical, Biological, Radiological, Nuclear) threats in a wide area over 300km radius and will cover all E.U. area plus borders.
· include five (5) subprojects, as described at next pages. The simplest early warning system against incoming C.B.R.N. substances will require two or more CBRN detectors users, located at a distance from each other or moving (pedestrian or oncoming).
The developed prototype system is a system based at patent number: GR1005224, 2040100482 patent no 16 of the Industrial Property Organization (a/a 16) and has been approved by the Greek Armed Forces General Stuff in 2007 by an official document ID: File 900 / 32/121610 / Draft 335 /Mar 6, 2007/Hellenic Armed Forces General Staff /Research & Informatics Section (E). The proposal have been done by Brigadier Konstantinos Stromatias, «3 Level Security Ltd» R&D Manager of and also owner of the patent. Details at Annexes ‘D’ and ‘E’.
Picture above : The constellation of Hercules. The serpent (parable the snake with the INVISIBLE CBRN threats) trying behind the hero to bite his heel (a part of the human body that we do not see - monitor). But the hero fights and "presses" the dragon (invisible enemy, as the CBRN threats are invisible) and targets dragon and the serpent also, eventually defeating the threats against his life.
The purpose of the ‘HERACLES’ development is the provision to the competent Commander / Director / Governor of timely information regarding the existence or entry of C.B.R.N. threats (targets) in its area of responsibility.
Client – server is the architecture of the system.
The technological level of ‘HERACLES’ is the 'C4ISR' (Command Control Computers Communication Intelligence Sensor Recognizance). * (1)
1.2 Project Framework
Most of the problems that local commanders-directors have to deal with include those of controlling the entry of population groups and animals from the free entry points between the members of the EU. Under the SENGEN International Treaty, the control of infected individuals and animals in the case of internal trafficking in pandemic or mild measures or the absence of population and animal control measures, the control of population groups and animals entering the EU. from other countries or the sea and many other related problems may or may not be foreseen.
Our assessment is that the full development and implementation of the 'HERCULES' system could in the first phase lead, among other things:
• ESSENTIAL Multi-level security (health, tactic, strategical, national, European)
• Economic balance and prosperity in EU Member States
• Individual and mental balance in EU citizens
• A sense of security and not phobic syndromes in citizens and commanders - directors of all EU levels.
1.2.1. "3 LEVEL SECURITY BULGARIA LTD", having more sensitivity to national issues, EU issues. and especially the health of citizens and the Armed Forces, investigate the problem and design a solution that puts it at your disposal.
The rapid and effective PROBLEM OF C.B.R.N. threats EXISTENCE in the context of the EU's health, operational and strategic needs, EU state members and their Armed Forces will contribute IMMEDIATELY and effectively in dealing with any similar threat if FROM NOW combined with the development of a first generation of systems for detection, localization and early warning of incoming C.B.R.N. substances starting from the locally PRODUCTION of each EU member state.
It is now certain that such a successful (to some extent) initial effort will at the same time be self-sufficient in modern technology-like systems. Our assessment is that the above descriptions can be applied in practice by this specific proposal for cooperation with you.
The current WORLD need for applied research on CBRN threats detection, localization and early warning systems. threats, combined with the requirements of the modern battlefield, are perfectly applicable to this proposed system. The emergence and spread of an unknown source of viruses on the planet over the past 30 years has made us the worst aware that epidemiological crises of this kind constitute a low cost of production, easy to manufacture, easy to use and basically very effective weapons system which affects both the psychological factor of the population and its ethics, leading to a reduction in their will for any form of struggle, but also to a disastrous effect on EU economy and its member nations also.
We believe that the development of the proposed Early Warning System can be a comprehensive and feasible solution for both the EU as well as its members as well as the member states Armed Forces, making them PIONEER in this kind of RESEARCH and TECHNOLOGY.
1.2.2 The under development system by the code name: 'HERACLES' will detect known and existing C.B.R.N. substances from a distance, the detection range of which will be determined after continuous testing, rearrangements, reconstructions, adjustments and restructuring of the component parts of the subsystems, parts and components of the whole system. We refer to a system that can be adjusted according to the current threat and will not require a complete redesign.
Our research to date has shown that 'HERACLES' must and may consist of the following independent subsystems:
- DETECTION SUBSYSTEM of a C.B.R.N. threat. Today the developed system (LABORATORY MODEL, VERSION ‘1’) successfully detects hazardous nitrogenous chemicals containing 75% such as the chemical substance 2,4,6-trinitrotoluene, C6H2(NO2)3CH3 (T.NT. high power military explosive matter).
- C.B.R.N. threats LOCALIZATION & RECORDING SUBSYSTEM (DEVELOPED)* (2)
- SUPPORT SUB SYSTEM for the C.B.R.N. threats LOCALIZATION & RECORDING SUBSYSTEM (DEVELOPED).
- DIGITAL MONITORING SUBSYSTEM for two or more DETECTORS operators and real time C.B.R.N. threat monitoring (version ‘1’- DEVELOPED) * (3) & *(4).
- REAL TIME MONITORING SUBSYSTEM for working C.B.R.N. detectors group (two or more operators) that send continuous data in real time as: image - sound - communication from the operators (NOT READY – WILL BE A COOPERATION WITH OTHER EU COUNTRIES FOR ‘GOTS’** ).
- DEVELOPMENT of modular, mobile and fixed Command, Control, Computer, Communication Intelligent Sensor Recognizance (C4ISR) C.B.R.N. Information Management Centers. Multi-level THREATS C4ISR CENTERS will be develop from the first cell of the system (a group of two operators detectors) and will be develop to all levels of the EU(2 detectors operators – group detectors operators - CITY detectors operators – REGION detectors operators – E.U. MEMBER STATE detectors operators – E.U HEADQUARTERS). EU HEADQUARTERS and Central Council will be the END USER of the hyper system ‘HERCULES’.
1.2.3. More detailed the UP TO NOW developed prototype systems (version 1) consisting of 4 subsystems as follows:
1. Threats (targets) DETECTION Subsystem. A portable, manual handled detector (device) that detects material structures from over 1000 meters depending of the mass of the targets and in great depths inside the ground or water. Today the system successfully detects hazardous nitrogenous chemicals containing 75% such as the chemical substance 2,4,6-trinitrotoluene, C6H2(NO2)3CH3 (T.NT. high power military explosive matter).
2. Targets (C.B.R.N. threats) Identification and Recording Subsystem. An application - software running on ANDROID platform, running on a smart phone or a P.A.D. or other device that uses magnetic sensors and GPS. The application uses offline digital maps with a GIS database. It shows in real time the position of the detector and the direction of the target that the detector shows in the horizontal level. The operator parallels the smart phone or PAD bigger axes with the threat detector's antenna that showing the C.B.R.N. threat (target) continuously after it tuned with the C.B.R.N. threat (targets). The direction of the target is recorded in the GIS database by pressing a digital key. After a second detection process from another (second) position (target tranquilization in a horizontal level) the operator simply confirms the direction of the target by pressing a digital key and automatically the application shows the distance of the target, and its coordinates, which automatically record in the GIS database. At the same time, a red ‘square’ label remains permanently on the digital map, maintaining in the GIS database the data of the threat for as long as the user wishes. Operating the client-server architecture model in real time, this application has the ability to function as a client, sending in real time operators position and target direction to a server. This is the STAND ALONE process of a detector user – operator.
3. Target identifying and recording sub-system. Supporting tools (tripods, LASER, etc) for accurately target localization.
4. Digital Monitoring System for two or more DETECTORS operators and real time target monitoring. This is the server part at the client – server model of ‘HERCULES’. This application used for Identification and Recording threats, in case of use 2 or more detectors. The application – subsystem accept and display on screen, in real time, the position of the operators (over 10) and the direction of the C.B.R.N. threats (targets) (over 10) that the operators detect. This application (software) running on WINDOWS XP operating system and newer, written in JAVA programming language. It runs on a stable or portable computer or PAD or other. The application uses offline digital maps with a GIS digital database. The purpose of the subsystem is to IMMEDIATELY locate and monitor the movement of a threat or threats by 2 or more detectors, working at a distance from each other. Also eliminates the need to move the operators to another, second location in order to locate the target.
1.2.4. MODELING’ THE NEW SYSTEM FOR SECURING ALL E.U. AREA
MODEL LEVEL: ‘1’
a. A C.B.R.N. threat (substance) Detection system (‘MAGNOTRON’ type detector ) ( ALREADY DEVELOPED for the chemical threat 2,4,6-trinitrotoluene, C6H2(NO2)3CH3 substance (T.NT. high power military explosive matter).
b. A Localization and Recording C.B.R.N. threat system (device and software). (ALREADY DEVELOPED *)
c. A SUPPORT system for the Localization and Recording C.B.R.N. threats system (devices) (ALREADY DEVELOPED *)
MODEL LEVEL: ‘2’
a. A Digital monitoring system (DRAMS Early Warning System) for a working C.B.R.N. detectors group (two or more operators) (version ‘1’ DEVELOPED*).
b. A real monitoring system for working C.B.R.N. detectors group (two or more operators) that send continuous data in real time as: image - sound - communication from the operators (NOT READY - COOPERATION WITH OTHER EU COUNTRIES).
MODEL LEVEL: ‘3’
A more complicated Early Warning System called as ‘LEVEL ‘3’ MODEL’ , using 6 cooperative D.R.A.M.S. EWS OR ‘LEVEL ‘2’ MODELS’ systems ( picture at next page), covers 50 km radius range circle.
MODEL LEVEL: ‘4’
A more complicated ‘LEVEL3 MODEL’ called as ‘LEVEL ’4’ MODEL’ , using 7 cooperative ‘LEVEL ’3’ MODELS’ covers 150 km radius range circle (picture at next pages).
MODEL LEVEL: ‘5’
A more complicated ‘LEVEL4 MODEL’ called as ‘LEVEL ‘5’ MODEL’ , using 7 cooperative ‘LEVEL ’4’ MODELS’ covers 300 km radius range circle (picture at next pages).
MODEL LEVEL: ‘6’
The ultimate and most complex MODEL called as ‘LEVEL ‘6’ MODEL’ , using 23 plus 5 cooperative ‘LEVEL ‘5’ MODELS’ that covers ALL E.U. AREA (pictures at next pages).
Creation of modular mobile and fixed Command, Control and C.B.R.N. Information Management Centers. Multi-level THREATS WORKING CENTERS will be develop from the first cell of the system (a group of two operators detectors) and will be develop until the EU Central Council. (IN DESIGN PHASE).
More details and pictures at Annex ‘C’: PROPOSED MODELS FOR SECURING EU FROM CBRN THREATS.
These subsystems will be developed in the form of independent devices and can be adapted to the MINIMUM TIME in different structures depending on the texture (Chemical or Biological or Radiological or Neutral) of each target/threat.
Also the above subsystems shall be developed in a modular architecture so that they can be adapted as soon as possible with the minimum effort and project being adjusted - rearranged in place and time within the WHOLE EU AREA. (design flexibility).
The development methodology of the whole project is that of the ‘cell model’. In simple terms, a first model will be developed for a first level (e.g. small urban area of 1,200,000 sq meters), then the model will be expanded (e.g. An urban area of 300,000 people) and expanded continuously (e.g. urban area of city of 5,000,000 people) and expanded until to cover an area of EU Member State level. The next expansion phase is the ultimate aim of covering all or part of the EU and borders in range of 20 km out of the borders.
Any premature success at any stage of development - evolution or emerging threat may change the ‘cell’ development model to that of the " waterfall model", ie the simultaneous implementation of the system in many or all predefined areas or the major or the whole of the EU, in PARALLEL DEVELOPMENT.
The whole system will be autonomous in terms of energy.
The implementation of the system aims to help achieve:
§ as early a warning as possible depending on the type of threat type with the aim of increasing vigilance in order to effectively address any form and type of related threat or threats or multiple types of threat at all levels of the EU. (beyond borders - border - single area - wide area/region - vast area - state - group of states - the EU's major).
§ the know-how acquisition in the field of detection - digital recording in the field of CBRN threats.
§ the general possibility of developing the system and its subsystems (independently) over time.
§ the strengthening of domestic industry in the field of detection, detection and early warning systems against CBRN threats.
ANNEX
‘G’
CONTAINS
THE
PROPOSED
SOLUTION
FOR
THE
TREATMENT
OF CBRN
THREATS,
WHILE
ANNEX ‘H’
PRESENTS
THE
MODELLING
OF
THE
SYSTEM
TO
BE
DEVELOPED
WITH
A
VIEW
TO
COVERING
THE
ENTIRE
EU
LIABILITY
AREA.
1.3 Emerging Project Implementation Activities
Detailed
Project
Implementation
Planning
shall
include
at
least
the
following
activities:
§ Activity A: Identification, in which CUSTOMER experts will identify, in cooperation with "3 LEVEL SECURITY BULGARIA LTD", the type of threats to be addressed in the individual development programs and the estimated results rates for each C.B.R.N. substance(s) - threat(s).
§ Activity B: Design, which includes detailed design, based on specifications to be given and development of a prototype of an autonomous device / CBRN threat DETECTOR system from the worldwide data so far identified.
§ Activity C: Development of a prototype or a number of prototypes stand-alone devices (detection systems for CBRN threats). A similar number of prototypes will be designed and developed for all or part of the CBRN threats.
§ Activity D: Redesign and Development of a prototype or number of prototype systems (stand-alone devices) for C.B.R.N. THREATS LOCALIZATION and TARGETING. A similar number of prototypes will be designed and developed for all or part of the C.B.R.N. threats.
§ Activity E: Redesign and Development of a prototype or number of prototype systems (stand-alone devices) for SUPPORT the C.B.R.N. threats localization and targeting systems. A similar number of prototypes will be designed and developed for all or part of the C.B.R.N. threats.
§ Activity F: Redesign and Master Development or number of prototypes of autonomous workgroup DIGITAL MONITORING SYSTEMS of two or more C.B.R.N. detectors operators and target movement tracking in real time.
§ Activity G: Co-production with one or more EU countries or purchase by GOTS ** method or partial development (depending on time - specific conditions) of prototype systems (stand-alone devices) of effective group monitoring (two or more) of C.B.R.N. threats detectors operators (real time image/video/sound/communication from the operators' field of work).
§ Activity H: Creation of fully functional modular mobile and fixed Control Command Computer Communication Center(s) of Detection, Targeting, Recording and all relative Information of C.B.R.N. threats in multiple levels covering the MODEL: ‘EU MEMBER STATE’, in particular the whole territory of a member state and all its missions abroad.
§ Activity I: Control of the expanded product (A PROTOTYPE INTEGRATED EARLY WARNING SYSTEM for CBRN threats) which includes testing using all developed prototype subsystems.
§ Activity J: Development of industrial standards, including development completion of the ‘INTEGRATED EARLY WARNING SYSTEM PROTOTYPE FOR CBRN threats’, incorporating all technical data resulting from the previous activity.
§ Activity K: Validation & Certification of End Product (INTEGRATED EARLY WARNING SYSTEM PROTOTYPE FOR CBRN threats), including the certification procedures of the final product.
Chapter 2: Technical Description
2.1 Introduction
The planned finished product i.e. the automated ‘INTEGRATED EARLY WARNING SYSTEM for CBRN threats AS it will use modern microelectronic technologies, it is a very sophisticated mechanism that does not exist in any EU member state Forces as perhaps in the EU ranks.
It
is
clear
that
any
success
of
the
joint
effort
to
introduce
this
proposed
integrated
system
into
the
Armed
Forces
of any member state of EU
and
other
services
in
the
member may
change
the
existing
operational
regime
for
the
use
of
surveillance
forces
in
such
operations,
which
is
relevant
both
to
staff
training
and
to
their
overall
operational
function.
If
it
is
decided
to
use
the
proposed
system,
then
the
regular
use
of
the
existing
surveillance
forces
against
CBRN threats
will
obviously
change
automatically.
This fact alone can be the beginning of the transformation or establishment of a specific NEW Corps. which is likely to be entrusted with the operation of this INTEGRATED PROJECT of the MEMBER of EU COUNTRY.
2.2. System Technical and operational characteristics
The core ‘heart’ of the whole system is the development of a CBRN threats DETECTOR for a medium and also a long distance. This will be an autonomous system in the form of a device with an autonomous energy source that will easily adapt to different forms and depending on the type of the threat it should detect.
The main technical and operational characteristics of the RP CIT system substances are listed as follows:
· The range of the Detection shall be such that it can support the LOGICAL STRUCTURE OF AN EARLY WARNING SYSTEM. The basic idea of an early warning system for CBRN threats is to allow to detect CBRN threats at places crowded by people (such as train stations, buses, airports, ports, shopping centres, workplaces, facilities, etc) in distances capable to give the antiquate time to the safety forces to engage in order to eliminate the threat. So it is clear that the detection of any kind of CBRN threat SHOULD BE ACHIEVED (must and could) BEFORE AND FAR FROM ANY HUMAN GATHERING and OVERCROWDING PLACE OR INSTALLATION. THIS IS AN INVIOLABLE WAY OF DEVELOPING ANY CBRN threats EARLY WARNING SYSTEM.
§ To be developed in the form of a small easy-to-use, manual device,
§ The device that will be developed can be operated by the average person.
§ To have technology capable of detecting CBRN threat essentially, to identify the CBRN substance depending on the appropriate sensor it will have and then in a short time to be magnetically tuned to any SAME C.B.R.N. substance that exists is in its range (range of action).
§ Be safe for the health of its operator.
§ It is possible to use it and if possible, in all weather conditions and areas of the EU.
§ To have a suitable CONTROLLER (coordinator) that COULD shows the detector operator the direction of the CBRN target with which it is TUNED.
§ To enable flexible construction of the system so that on the one hand it is possible to adjust it after continuous testing in the test fields, and on the other hand the possibility of acquiring know-how for further technological development of these systems in the long run.
§ No maintenance of the device required.
§ The system should have at least one sensor that can be tuned to the SAME CBRN target - substance.
§ Be able to operate under high voltage power cables.
§ Not to be affected by electromagnetic spectrum deflectors (Jammers).
The main technical and operational characteristics of the LOCALIZATION and RECORDING CBRN threats system listed below:
§ To be developed in the form of a small easy-to-use, manual device, if possible the size of a telephone device, a PAD or similar.
§ The device that will be developed must be operated by the average person.
§ Use technology capable of recording data in a geographic database (GIS type).
§ In the recorded data there should be: date, time, coordinates of a recorded target.
§ The recorded data should not be deleted against the will of the operator but only with his own action on the device.
§ No to be possible to alter the target record data, except to delete it.
§ To be possible to record a fake target, but to be presented in the system with a different colour so that it stands out from the real target.
§ The recorded face target data should not be deleted against the will of the operator but only with his own action on the device.
§ Be safe for the health of its operator.
§ To be possible to use it, if possible, in all weather conditions and areas of the EU.
§ CAN AUTOMATICALLY record the target by the 2nd EFFORT OF the operator (at triangulation process).
§ To present the distance of the target and its coordinates AUTOMATICALLY as soon as the target record by the 2nd EFFORT OF the operator (at triangulation process).
§ No maintenance of the device must be required.
The main technical and operational characteristics of the sub-project system ‘DIGITAL monitoring system for the detection of a team of C.B.R.N. threat Detectors, are listed bellow:
§ To be developed in the form of a small easy-to-use, portable device, if possible the size of a laptop or PAD laptop, etc.
§ The device can be operated by the average person.
§ Use technology capable of digitally presenting the data of two or more operators with different colours for each operator.
§ to detectors in REAL TIME and specifically at least:
- Their location on a digital map, with a separate code name for each CBRN threat detector operator.
- To use a different colour for each direction of CBRN threat detection - operator from the same position.
- The position of the target that will be visible from the intersection of two or more directions with different colours for each operator.
- The system could operate both in the field and inside facilities, vehicles, armoured vehicles and inside military vehicles.
- The communication part of the system (communication with the detection & target recording systems of the operators) must be supported:
- from a smart phone with a built-in Modem.
- from VPN 3G mobile network and newer.
- from a simple external modem in case of non-existence
or non-operation mobile telephony networks.
§ Use a database with data for each new session
§ Give the operator the exact electronic address (IP) of the modem that will be connected to the system from the system to the operator so that the operator TARGETS LOCATOR SYSTEM could be tuned with the modem.
§ No system maintenance required.
§ The system could operate in WINDOWS OS environment.
Regarding the last two subsystems: 1: ‘monitoring system in REAL TIME of the detection work of a group of C.B.R.N. threat Detectors and 2: ‘System of Mobile and Fixed C4ISR Centers for Command Control and Management of C.B.R.N. threats detection of Multi-level threats, we consider it appropriate not to refer to them from now on, but reference will be made to the main study of the project after consultation with the current requirements of the client.
2.3 System Implementation Estimated Results
Some of the estimated results of the application of the proposed new system are listed below:
§ Valuable hard-working personnel are saved for use in a purely regular context or for its observance as direct reserves or other critical missions in peacetime or operations as the operation of such a system may well be assigned to experienced retired executives of armed forces and other services of the EU Member States countries.
§ The logic of assigning threat surveillance missions will be bypassed essentially in combat-ready units that can and should receive regular missions due to the nature of the formation and the means at their disposal.
§ Valuable time will be saved in phases of increased alarm / epidemiological crises / similar situations to that of the COVID-19 epidemic due to the fact that those involved in such textile missions will be more specific and will know their mission and mode of action in advance , having been trained in these modern collaborative integrated systems of the new early warning system for CBRN threats.
§ The operation of the new early warning system for CBRN threats Due to its relative simplicity, it can be assigned to unskilled personnel.
§ The range of the system estimated to cover the entire territory of the designated area (from a small area to the whole of the EU) as long as the CBRN EXCLUSIVE doctrine described in Annex ‘A’.
Chapter 3: Project Implementation Planning Detailed
The implementation of the Project is estimated to last a total of 22 - 24 months from the date the project team is determined and the responsibilities of each participant in the project. At this time, the projects of Activity G (Co-production with one or more EU countries or purchase by GOTS ** method or partial development (depending on time - specific conditions) of prototype systems (stand-alone devices) of effective group monitoring (two or more) of C.B.R.N. threats detectors operators (real time image/video/sound/communication from the operators' field of work) and Activity H ( Creation of fully functional modular mobile and fixed Control Command Computer Communication Center(s) of Detection, Targeting, Recording and all relative Information of C.B.R.N. threats in multiple levels covering the MODEL: ‘EU MEMBER STATE’, in particular the whole territory of a member state and all its missions abroad).
The estimated works for the project implementation are:
§ A substantiated proposal for the development of the system to the client.
§ Analytical Study written by the Researcher team of the Project, which will not include the ‘G’ and ‘H’ activities. These activities will be studied in parallel but with a longer time limit.
§ Design of a Measurement and Sensor Methodology by the Project Researcher Group for the Construction of the CBRN threats - substances. This process is the most critical for the whole project and may require cooperation with other EU member state / s as well.
In parallel with the above actions the Research Team of the Project will undertake the following tasks:
§ shall design and determine the sensor(s) and develop secure positioning within the Detector shell with possible cooperation with other EU Member State / s.
§ shall ensure and identify, in cooperation with the CUSTOMER Team for the Project, the appropriate space, time, means and other requirements for initial testing of the sensor(s) sensitivity measurement device in order to determine the magnetic signature(s) of the CBRN substance(s) to be predetermined as target(s).
§ will deploy the CBRN THREAT Sensor(s).
§ design and develop an appropriate Power Supply System (engine or engines) of the Detector(s).
§ shall design and develop an appropriate sensor latch and adaptor device(s) to the Detector(s) and sensor(s). The end of this process also means the completion phase of the autonomous detector device(s).
§ Field Test Activation by the Project Researchers Team, a number of detector(s) with customer participation to determine the range(s) to meet customer requirements and determine the loss-making distances (active - beneficial - maximum) for each CBRN threat - substance(s) as target(s).
§ Minimum / Maximum Distance Certification Jobs and Percentage Successful Detection of CBRN threats ( targets) - substance(s).
§ the Project Researchers Team shall carry out tests on the required tasks of adjusting the sensor(s) in the test field and determining the CBRN threat ‘magnetic signature’ according to the category of each one target - substance(s). Using static target(s) calibrate the sensor sensitivity using a measurement device (detector) or other which will be used for the final construction of the prototypes.
§ Redesign the localization and targets locator system from the project researchers group. a new ‘dedicated system’ will be developed accordingly to field and observation test results.
§ completion, by the Project researchers Team, of the project to deploy a prototype device(s) and enable a Detector(s) for final determination of its action radius.
§ Final Tasks — Field-measurement Sensor/Probe Range Tests of the targets – CBRN threats from the Project Researchers Group.
§ Design and Development by the Project Researcher Group, of the sub-project ‘DIGITAL MONITORING SYSTEM of the detectors users.
§ the Project researchers Team will design and implement the integration of volatile and floating media as DRONES and other aircraft into the sub-project ‘DIGITAL MONITORING SYSTEM of the CBRN threats detectors users’ for a pilot CBRN threats project’.
§ after this sub-project has been completed, the Project Researchers Team will start the Detector activation work for proper function checking in the sub-project ‘DIGITAL MONITORING SYSTEM of the CBRN threats detectors users’ for a pilot CBRN threats project’.
§ The Project Researchers Team will commence market research work on the Co-production and Development sub-project ‘REAL TIME MONITORING SUBSYSTEM for working C.B.R.N. detectors group that send continuous data in real time as: image - sound - communication from the operators’.
§ after this sub-project has been completed, the Project Researchers Team will start the Detector activation work to check the proper functioning of the ‘REAL TIME MONITORING SUBSYSTEM for working C.B.R.N. detectors group that send continuous data in real time as: image - sound - communication from the operators’.
§ the Project Researchers Team will plan and implement the integration of volatile and floating media as DRONES and other aircraft in the sub-project the ‘REAL TIME MONITORING SUBSYSTEM for working C.B.R.N. detectors group that send continuous data in real time as: image - sound - communication from the operators’.
§ The Project Researchers Team will start work on developing a number of CBRN threats detection systems prototypes.
§ The Project Researchers Team will start work on developing a number of prototypes of CBRN threats detection early warning systems.
§ The Project Researchers Team will begin work on Design and Development of a first model for installation of the modular mobile and installed Command and Control Centre(s) of CBRN threats Detection Information of the multiple-level threats (MULTIPLE THREATS).
§ In parallel the Project Researchers Team will start the Design and Development work of a first model for installation on a vehicle (type of VAN) modular mobile and fixed Command and Control Center of CBRN threats detection Information (MULTIPLE THREATS).
§ After the above successful attempt the Project Researchers Team will start the Design and Development work of a first model for installation on a military vehicle and a military truck of the modular mobile and installed Command and Control Centre(s) of CBRN threats Detection Information of the multiple-level threats (MULTIPLE THREATS).
§ CUSTOMER Project Team certifies the prototype system(s) of CBRN threats DETECTION.
§ CUSTOMER Project Team certifies the prototype system(s) of CBRN threats LOCALIZATION & TARGETS LOCATOR.
§ CUSTOMER Project Team certifies the original redesigned CBRN threats LOCALIZATION & TARGETS LOCATOR developed as a dedicated system following the results of field and observation tests.
§ certification by CUSTOMER Project Team of the original redesigned ‘DIGITAL MONITORING SYSTEM of the CBRN threats detectors users’ developed as the dedicated system following the results of field and observation tests.
§ certification by the CUSTOMER Project Team of the proper operation of integrated flight and floating media as DRONES and other aircraft in the sub-project ‘DIGITAL MONITORING SYSTEM of the CBRN threats detectors users’
§ CUSTOMER Project Team certifies the Redesigned Prototype System ‘REAL TIME MONITORING SUBSYSTEM for working C.B.R.N. detectors group that send continuous data in real time as: image - sound - communication from the operators’, developed as the dedicated system following the results of field and observation tests.
§ Certification by the CUSTOMER Project Team of incorporated volatile and floating media as DRONES and other aircraft in the sub-project ‘REAL TIME MONITORING SUBSYSTEM for working C.B.R.N. detectors group that send continuous data in real time as: image - sound - communication from the operators’.
§ CUSTOMER Project Team certifies the first ‘Modular mobile and installed Command and Control Center(s) of CBRN threats Detection Information of the multiple-level threats (MULTIPLE THREATS).
§ CUSTOMER Project Team certifies all the modular mobile and installed Command and Control Center(s) of CBRN threats Detection Information of the multiple-level threats (MULTIPLE THREATS) at all multiple levels of an EU member state territory and consignments outside its borders.
§ certified by CUSTOMER's Project Team of the Industrial CBRN threats DETECTION System(s) - Appliance(s).
§ certified by CUSTOMER's Project Team of the Industrial LOCALIZATION & TARGETS LOCATOR System(s).
§ certified by CUSTOMER's Project Team of the Industrial SUPPORT SYSTEM of the localization & targets locator System.
§ certification by the CUSTOMER Project Team of the ‘DIGITAL MONITORING SYSTEM of the CBRN threats detectors users’
§ certification by CUSTOMER Project Team of the the modular mobile and installed Command and Control Center(s) of CBRN threats Detection Information of the multiple-level threats (MULTIPLE THREATS). Certification may be required here for multiple industrial models depending on usage levels.
Continued Management, by the Project Manager in cooperation with the Permanent Program Monitoring Group of the overall project to coordinate implementation actions to ensure the desired result and the project is carried out within the framework specified in the proposal and the relevant timetable. In addition, continuous monitoring of its implementation and effective addressing of issues and difficulties that may arise.
The following tables describe the implementation schedule of the Project and the deliverables to be prepared:
